tft lcd construction supplier

Distributor of component LCDs for equipment which provide high-contrast ratio, color saturation, luminance and performance enhancements such as advanced wide viewing (AWV) for true color fidelity, super-high brightness (SHB) and wide temperature range. Focus on industrial, instrumentation, hand-helds, medical and other low-to-medium volume markets. High-bright LED backlights for outdoor use. LVDS interfaces decrease EMI. Factory installed touch screen solutions. 3.5" to 12.1" QVGA, HVGA, VGA, WVGA, SVGA, XGA, WXGA. Also distributes other related products including LED drivers, lamps, indicators, LED assemblies, segment displays, LED mounts, LEDs, and light pipes. Distributor of electronic components, hardware and fasteners and provides design/value engineering support, fulfillment strategies, procurement services and transactional models to meet specific needs and priorities.

For most mainstream LCD sizes, we have a solid and continuous relationship with upstream panel and IC manufacturers. And our main employees are from LCD upstream companies and have the most extensive resource information and personal connections in the industry. So we can guarantee the supply.

Crystalfontz America is the leading supplier of LCD, TFT, OLED and ePaper display modules and accessories. We specialize in providing our customers the very best in display products, cables and connectors.

In addition to our large catalog of displays, we offer LCD development kits, breakout boards, cables, ZIF connectors and all of the LCD software and drivers you need to develop your product or project. We are located in the U.S. so we can get product to you fast!

Our corporation puts emphasis about the administration, the introduction of talented staff, plus the construction of team building, attempting hard to improve the quality and liability consciousness of team members. Our organization successfully attained IS9001 Certification and European CE Certification of Lcd Panel Construction, Small Lcd Panel, Touch Tft Display, Lcd Backlight Panel,Touch Display Module. For further queries or should you have any question regarding our products, please do not hesitate to contact us. The product will supply to all over the world, such as Europe, America, Australia,Argentina, Uganda,Greek, Zimbabwe.Products have been exported to Asia, Mid-east,European and Germany market. Our company has constantly been able to update the products performance and safety to meet the markets and strive to be top A on stable quality and sincere service. If you have the honor to do business with our company. we will definitely do our very best to support your business in China.

In order to follow the market tread, Orient Display engineers have developed several Arduino TFT LCD displays and Arduino OLED displays which are favored by hobbyists and professionals.

Although Orient Display provides many standard small size OLED, TN and IPS Arduino TFT displays, custom made solutions are provided with larger size displays or even with capacitive touch panel.

Our company specializes in developing solutions that arerenowned across the globe and meet expectations of the most demanding customers. Orient Display can boast incredibly fast order processing - usually it takes us only 4-5 weeks to produce LCD panels and we do our best to deliver your custom display modules, touch screens or TFT and IPS LCD displays within 5-8 weeks. Thanks to being in the business for such a noteworthy period of time, experts working at our display store have gained valuable experience in the automotive, appliances, industrial, marine, medical and consumer electronics industries. We’ve been able to create top-notch, specialized factories that allow us to manufacture quality custom display solutions at attractive prices. Our products comply with standards such as ISO 9001, ISO 14001, QC 080000, ISO/TS 16949 and PPM Process Control. All of this makes us the finest display manufacturer in the market.

Our exclusive relationship with Kyocera Display in Japan allows for unprecedented collaboration of research and development, guaranteeing access to state-of-the-art TFT manufacturing at the Kyocera facility in Yasu, Japan. Using a Gen 3.5 manufacturing infrastructure, the product line is versatile in its ability to support both LTPS and aSi technologies.

Custom display interface boards (DIBs) are available for bespoke TFT-LCD orders. This critical electronic component provides signals to the LCD glass integrated row and column drivers. Our DIBs include built-in-tests to report abnormal system functions on a high-reliability field-programmable gate arrays (FPGA) platform. These self-monitoring capabilities are essential in safety-critical applications and are a part of hardware design strategies to satisfy any RTCA DO-254 requirements.

Leadtek is professional manufacturer for customer unique application requirement and we specialize in creating custom customized tft lcd for clients all over the world. We could provide 5 custom-made TFT LCD screen as industrial tft lcd, bar type lcm, automobile display mold, circular screen panel, square tft lcm, to its custom lcd AA, custom lcd structurer, custom lcd FPC, controller board type, and custom lcd size etc. Our profession engineer and designer are experienced in designing and manufacturing custom lcd and they will create custom tft lcd displays based on your specific needs. Besides the custom lcd display panel, we also provide custom PCBA board for the display products. Leadtek, a trusted brand, would offer you the best custom tft displays.

LCD is the abbreviation for liquid crystal display. An LCD basically consists of two glass plates with a special liquid between them. The special attribute of this liquid is that it rotates or “twists” the plane of polarized light. This effect is influenced by the creation of an electrical field. The glass plates are thus each coated with a very thin metallic film. To obtain polarized light, you apply a polarization foil, the polarizer, to the bottom glass plate. Another foil must be applied to the bottom glass plate, but this time with a plane of polarization twisted by 90°. This is referred to as the analyzer.

In the idle state, the liquid twists the plane of polarization of the incoming light by 90° so that it can pass the analyzer unhindered. The LCD is thus transparent. If a specific voltage is applied to the metallic film coating, the crystals rotate in the liquid. This twists the plane of polarization of the light by another 90°, for example: The analyzer prevents the light getting through, and the LCD thus becomes opaque.TN, STN, FSTN, blue mode, yellow-green mode

However, the different colors occur only in displays that are either not lit or that are lit with white light. If there is any color in the lighting (e.g. yellow-green LED lighting), it overrides the color of the display. A blue-mode LCD with yellow-green LED lighting will always appear yellow-green.Static or multiplex driving method

Every LCD has a preferred angle of view at which the contrast of the display is at its optimum. Most displays are produced for the 6°° angle of view, which is also known as the bottom view (BV). This angle corresponds to that of a pocket calculator that is lying flat on a desktop.

LCDs without lighting are hard to imagine these days. However, since there are basically four different types of lighting, the type selected depends very much on the application. Here is a brief overview to clarify the situation:LED

Standard LCDs have a temperature range of 0 to +50°C. High-temperature displays are designed for operation in the range from -20 to +70°C. In this case, however, additional supply voltage is generally required. Since the contrast of any LCD is dependent on the temperature, a special temperature-compensation circuit is needed in order to use the entire temperature range, and this is particularly true for high-temperature displays (-20 to +70°C). Manual adjustment is possible but rather impractical for the user.

However, the storage temperature of a display should never be exceeded under any circumstances. An excessively high temperature can destroy the display very quickly. Direct exposure to the sun, for example, can destroy an LCD: This is because an LCD becomes darker (in positive mode) as it gets hotter. As it gets darker, it absorbs more light and converts it to heat. As a result, the display becomes even hotter and darker... In this way, temperatures of over 100°C can quickly be reached.Dot-matrix, graphics and 7-segment displays

The first LCDs were 7-segment displays, and they are still found today in simple pocket calculators and digital watches. 7 segments allow all of the digits from 0 to 9 to be displayed.

The semiconductor industry now offers a very large range of LCD drivers. We generally distinguish between pure display drivers without intelligence of their own, controllers with a display memory and possibly a character set, and micro-controllers with integrated LC drivers.

Many ask themselves, "What is the difference between an LCD display and a TFT-display?" or "What is the difference between a TFT and an OLED display?". Here are these 3 sometimes extremely different display technologies briefly explained. LCD vs. TFT vs. OLED (comparison).

- The LCD (Liquid Crystal Display) is a passive display technology. The operation and the structure are described above. Passive means that an LCD can only darken or let out light. So it always depends on ambient light or a backlight. This can be an advantage because the power consumption of a LCD display is very, very low. Sometimes even less than the accumulated power consumption of an E-paper display, which in static operation requires absolutely no energy to maintain the content. To change the contents, however, a relatively large amount of power is required for an E-paper display.

LCDs can also be reflective, so they reflect incident light and are therefore legible even at maximum brightness (sunlight, surgical lighting). Compared to TFT and also OLED, they have an unbeatable advantage in terms of readability and power consumption :; the "formula" is: Sunlight = LCD.

- A TFT-display (of Thin-Film Transistor) is usually a color display (RGB). From the construction and the technology it corresponds to the LCD. It is also passive, so it needs a backlight. This is in any case necessary except for a few, very expensive constructions. However, a TFT needs much more light than the monochrome relatives, because the additional structures on the glass as well as the additional color filters "swallow" light. So TFTs are not particularly energy-efficient, but can display in color and at the same time the resolution is much higher.

- OLED displays (by Organic-Light-Emitting-Diode) are as the name implies active displays - every pixel or sign generates light. This achieves an extremely wide viewing angle and high contrast values. The power consumption is dependent on the display content. Here OLEDs to TFTs and LCDs differ significantly, which have a nearly constant power consumption even with different display contents. Unfortunately, the efficiency of converting the electric current into light energy is still very poor. This means that the power consumption of OLEDs with normal content is sometimes higher than that of a TFT with the same size. Colored OLEDs are increasingly used in consumer devices, but for the industry, due to their availability and lifetime, currently only monochrome displays are suitable (usually in yellow color).

In the reaction time, the OLEDs beat each TFT and LCD by worlds. Trise and Tfall are about 10μs, which would correspond to a theoretical refresh rate of 50,000 Hz. Possibly an advantage in very special applications.

Finally the question "What is better, LCD, OLED or TFT?" Due to the physical differences you can not answer that blanket. Depending on the application, there are pros and cons to each individual technology. In addition to the above differences, there are many more details in the design and construction that need to be individually illuminated for each device. Write us an e-mail or call us: we have specialists with some 20- and 30-year experience. We are happy to compare different displays together with you.AACS and IPS technology

This premium LCD TFT display provides high visibility, and versatile construction with Multi-domain vertical alignment (MVA) technology. The 480x272 resolution TFT display allows wide viewing up to 75° from any direction. This 24-bit display is RoHS compliant and offers high contrast images with RGB interface and a 4-wire resistive touch panel.

This 10.1 inch TFT LCD display has a 1024x600 resolution screen with IPS technology, which delivers sunlight readable brightness, better color reproduction, better image consistency, and better optical characteristics at any angle. For extra protection, this 24-bit true color TFT also includes an EMI filter on the input power supply line. This 10.1" display is RoHS compliant with LVDS interface, and does not include a touchscreen. This 10.1" IPS display has been designed with the same mechanical footprint and pinout and includes the same HX8282 driver IC as the TN display, making this a compatible replacement option for the TN models.

Anders Electronics has introduced a 7-inch widescreen TFT-LCD module complete with interface, power sequencing and OSD control already integrated, to ease design challenges and reduce time to market for new products. The complete module is based on a TPO TFT panel and is RoHS compliant.

module comprises a 7-inch, active matrix digital-input TFT-LCD panel with 262k colour depth, featuring low temperature poly silicon (LTPS) technology that ensures high reliability, low power consumption and thin construction. The display has a wide viewing angle - up to 140° left to right, contrast ratio of 600:1 and a resolution of 800 x 480 pixels (W-VGA). The CCFL backlight built in gives a screen brightness of 500 cd/m2 screen brightness, making the display suitable for use in a wide range of domestic, retail and industrial ambient environments. The use of LTPS architecture and low power design techniques reduces total power consumption for the combined panel and backlight to less than 6W.

The interface board occupies the same footprint as the TFT-LCD panel and attaches to the rear of the display, creating a slim assembly only 24mm deep. The on-board video decoder accepts PC-VGA input as well as S-Video, composite video and YpPbBr component video, with connectors for CVBS, S-Video and YPbPR as well as a standard D-sub 15 connector for analogue VGA input. The package includes an on-board DC-DC converter generating all the supply voltages for the TFT-LCD, as well as the inverter needed for the CCFL backlight. The designer needs only to provide a +12VDC supply, and video in the chosen format, enabling rapid evaluation and design of solutions to modern display challenges.

In addition to the turnkey module, Anders Electronics also supplies the TFT-LCD panel and interface board as individual components, giving designers extra flexibility, faster demonstrations and proof-of-concept, with quicker design and integration.